Modelling the accumulation of hydrophobic organic chemicals in earthworms : Application of the equilibrium partitioning theory

In this paper a method is developed which can be used to estimate the body burden of organic hydrophobic chemicals in earthworms. In contrast to the equilibrium partitioning theory, two routes of uptake are incorporated: uptake from interstitial water and dietary uptake. Although many uncertainties...

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Veröffentlicht in:	Environmental science and pollution research international 1995-07, Vol.2 (1), p.5-15
Hauptverfasser:	Belfroid, A C, Scinen, W, van Gestel, K C, Hermens, J L, van Leeuwen, K J
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Sprache:	eng
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creator	Belfroid, A C Scinen, W van Gestel, K C Hermens, J L van Leeuwen, K J
description	In this paper a method is developed which can be used to estimate the body burden of organic hydrophobic chemicals in earthworms. In contrast to the equilibrium partitioning theory, two routes of uptake are incorporated: uptake from interstitial water and dietary uptake. Although many uncertainties still remain, calculations show that for earthworms steady state body burdens are mainly determined by uptake from interstitial water. Under most circumstances, the contribution of dietary uptake is small, except for hydrophobic chemicals (log Kow > 5) in soils with a high organic matter (OM) content of ≈ 20 %. Under those conditions, estimates of the steady state body burden calculated with the equilibrium partitioning model, in which only uptake from interstitial water is taken into account, might result in a small underestimation of the real body burden of chemicals in earthworms.
doi_str_mv	10.1007/BF02987505
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title	Modelling the accumulation of hydrophobic organic chemicals in earthworms : Application of the equilibrium partitioning theory
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